Commentary: Rome wasn't built in a day: Learning from initial cohort studies for patients with coronavirus disease receiving extracorporeal membrane oxygenation.

This manuscript serves as a meaningful foundation for ECMO use in patients with COVID-19, acknowledging the challenges of data collection during pandemic crises.

HelenMari Merritt-Genore, DO, and Ryan Zavala, CCP

See Article page 2107.

With pandemic data flowing like a fire hydrant spray, it is hard to determine when to take a drink. This retrospective cohort study includes hundreds of patients with coronavirus disease 2019 (COVID-19) from across the United States supported with extracorporeal membrane oxygenation (ECMO). Although one may critique a lack of standardized initiation and management criteria, it is important to consider where we all were during this time period. Taking that perspective into account, it is easier to take a sip and find yourself refreshed by the authors’ efforts to collaborate and collect data during the initial pandemic phases.

In this cohort of nearly 300 patients, more than half of patients survived their hospitalization and approximately 40% of surviving patients were discharged directly to home—both encouraging statistics compared with the first reports from international studies with small cohorts and poor outcomes. Specific predictors of outcomes in this cohort were renal function, age, elevated lactate dehydrogenase, and cardiopulmonary resuscitation. When to cannulate was also a predictor of outcomes because those with earlier ECMO initiation were more likely to survive. It is known that renal dysfunction and the need for renal replacement therapy portends a poorer outcome, with up to an 81% increase in mortality in patients receiving ECMO. Elevated creatinine levels increased mortality; however, data were missing for utilization of renal replacement therapy, and thus its influence on survival in this population is difficult to interpret. Although 12% of the population received cardiopulmonary resuscitation during their admission, it was not necessarily immediately proximate to their cannulation; therefore, not technically extracorporeal cardiopulmonary resuscitation.

Approximately 1000 ECMO centers worldwide and 300 US centers exist. These data come from 19 centers clustered geographically in eastern and midwestern US cities, and may not represent all experiences. Additionally, the population included predominately Hispanic patients with a narrow range for age (39-57 years) and body mass index (29-37), with relatively normal kidney function and low precannulation lactate levels. This suggests a selection pressure was applied: sicker and older patients may have been excluded due to sparse resources. Selection pressure may again shift exclusion/inclusion criteria because COVID-19 cases have decreased in the Unites States recently.

As the authors note, further studies exploring best practices should focus on anticoagulation therapies, extremes of body habitus, filtration of cytokines, cannulation sites, timing of tracheostomy, bridge-to-transplantation, and the correlation of traditional scoring (Respiratory Extracorporeal Membrane Oxygenation Survival Prediction score) on both short- and long-term outcomes for COVID-ECMO.4, 5, 6, 7 Additionally, a comparison between patients treated conservatively (maximum medical therapy but not ECMO) is needed, but as other trials and studies have shown us repeatedly, hard to produce.

Rome was not built in a day, and neither will the knowledgebase for COVID-ECMO outcomes. Era-based studies tend to fall into 3 categories: what we know, what we now know, and what we thought we knew and each sequentially builds on the efforts of previous research. This article serves as a meaningful foundation for ECMO use in COVID-19 patients, and almost certainly, the need for reexamination with novel viral variations and future challenges.